System and method for prioritizing websites during a webcrawling process

ABSTRACT

A system and method for prioritizing a fetch order of web pages. The method comprises extracting by a web crawler a set of candidate web pages to be crawled. Each web page in the set of candidate web pages is associated with a website in a computer network. A determination is made to determine if a first website score for the website is in a website score database. The first website score is associated with web pages in the set of candidate web pages if the first website score exists in the website score database. The set of candidate web pages is prioritized with respect to an associated website score for each web page in the candidate set of web pages. Content is retrieved from the set of candidate web. Hyperlinks are extracted from the content. The hyperlinks are stored in a memory unit.

This application is a continuation application claiming priority to Ser.No. 11/392,856, filed Mar. 29, 2006.

BACKGROUND OF THE INVENTION

1. Technical Field

The present invention relates to a system and associated method forprioritizing websites and web pages during a web crawling process.

2. Related Art

Due to a plurality of factors, users of a network may find it necessaryto streamline a search process to locate information on the network.Therefore there exists a need for an efficient method for streamlining asearch process to locate and gather information on a network.

SUMMARY OF THE INVENTION

The present invention provides a prioritization method, comprising:

extracting, by a web crawler in a computing system, a set of candidateweb pages to be crawled, wherein said computing system comprises amemory unit, and wherein said memory unit comprises said web crawler,said set of candidate web pages, an online analysis softwareapplication, an offline analysis software application, and a websitescore database;

associating, by said online analysis software application, each web pagein said set of candidate web pages with a website in a computer network;

determining online, by said online analysis software application, if afirst website score for said website, is in said website score database;

associating, by said online analysis software application, said firstwebsite score for said website with associated web pages in said set ofcandidate web pages, if said first website score exists in said websitescore database;

prioritizing, said set of candidate web pages with respect to anassociated website score for each web page in said candidate set of webpages;

retrieving, by said web crawler, content from said set of candidate webpages using said prioritizing;

extracting, by said online analysis software application, hyperlinksfrom said content;

storing said hyperlinks in said memory unit.

The present invention provides a computing system comprising a processorcoupled to a computer-readable memory unit, said memory unit comprisinga web crawler, a set of candidate web pages, an online analysis softwareapplication, an offline analysis software application, a website scoredatabase, and instructions that when executed by the processor implementa prioritization method, said method comprising:

extracting, by said web crawler, said set of candidate web pages to becrawled;

associating, by said online analysis software application, each web pagein said set of candidate web pages with a website in a computer network;

determining online, by said online analysis software application, if afirst website score for said website, is in said website score database;

associating, by said online analysis software application, said firstwebsite score for said website with associated web pages in said set ofcandidate web pages, if said first website score exists in said websitescore database;

prioritizing, said set of candidate web pages with respect to anassociated website score for each web page in said candidate set of webpages;

retrieving, by said web crawler, content from said set of candidate webpages using said prioritizing;

extracting, by said online analysis software application, hyperlinksfrom said content;

storing said hyperlinks in said memory unit.

The present invention provides computer program product, comprising acomputer usable medium including an online analysis softwareapplication, an offline analysis software application, a website scoredatabase, a web crawler, a set of candidate web pages, and computerreadable program code embodied therein, said computer readable programcode comprising an algorithm adapted to implement a prioritizationmethod within a computing system, said method comprising:

extracting, by said web crawler, said set of candidate web pages to becrawled;

associating, by said online analysis software application, each web pagein said set of candidate web pages with a website in a computer network;

determining online, by said online analysis software application, if afirst website score for said website, is in said website score database;

associating, by said online analysis software application, said firstwebsite score for said website with associated web pages in said set ofcandidate web pages, if said first website score exists in said websitescore database;

prioritizing, said set of candidate web pages with respect to anassociated website score for each web page in said candidate set of webpages;

retrieving, by said web crawler, content from said set of candidate webpages using said prioritizing;

extracting, by said online analysis software application, hyperlinksfrom said content;

storing said hyperlinks in said memory unit.

The present invention advantageously provides a system and associatedmethod for streamlining a search process to locate and gatherinformation on a network.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates a block diagram view of a web crawler systemcomprising a computing system connected to a computer network, inaccordance with embodiments of the present invention.

FIG. 2 illustrates a detailed block diagram view of the web crawlersystem of FIG. 1, in accordance with embodiments of the presentinvention.

FIG. 3 is a flowchart describing an algorithm for implementing the webcrawler system of FIGS. 1 and 2, in accordance with embodiments of thepresent invention.

FIG. 4 is a flowchart illustrating embedded functions further detailingstep of FIG. 3, in accordance with embodiments of the present invention.

FIG. 5 illustrates a computer system for prioritizing websites during aweb crawling process, in accordance with embodiments of the presentinvention.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1 illustrates a block diagram view of a web crawler system 2comprising a computing system 5 connected to a computer network 6, inaccordance with embodiments of the present invention. The computernetwork 6 may comprise any type of computer network known to a person ofordinary skill in the art including, inter alia, the Internet. The WorldWide Web (herein referred to as “the Web”) is an information sharingmodel comprising a method for accessing information over the Internet.The computing system 5 comprises a web crawler 8. A web crawler (e.g.,web crawler 8 in FIG. 1) is a software tool that searches the Web forcontent (i.e., web pages) and feeds the content to a search engine. Aweb page comprises a document on the Web. The Web comprises a nearlyinfinite amount of information and therefore a web crawler may not beable to scan the Web in its entirety or refresh all user-defined contentin a timely manner. The Web comprises a vast amount of content ofquestionable merit (i.e., adult content, spam, etc.) so in an effort toconserve constrained resources like bandwidth, processing time, andstorage, web crawlers must avoid such questionable content whiledirecting efforts toward the discovery of higher value content andrefreshing known good content. A web crawler maintains a list ofuniversal resource locators (URL) which have been discovered, but notyet downloaded. The list of URLs (e.g., for a candidate set of web pagescomprises a set of URLs to be crawled) is stored in an URL frontier(e.g., see URL database 8 c in FIG. 2). Most web crawlers perform a webpage level analysis to determine a priority of URLs in the URL frontier.Among these web page level analysis techniques are content-based andlink-based analyses. In general, it is cost prohibitive to performextensive analysis on each page encountered. Content-based analysisimplicitly requires the content of a given URL to be downloaded.Link-based analysis generally must be executed using not only thecontent of the page in question, but also a set of pages which containlinks relevant to each web page. The web crawler system 2 in FIG. 1approaches the web as a collection of websites (i.e., a group of webpages), as opposed to individual web pages. A web page is ranked by theweb crawler system 2 in terms of its source website's importance orutility. In order accomplish this, a website score is compiled via asampling of web pages from that website (i.e., retrieving only some webpages in the website). The sampling of web pages may comprise anysampling process known to a person of ordinary skill in the artincluding, inter alia, random sampling, sampling every specified numberof pages, etc. The process of compiling a website score is flexible andextensible to the needs of a user of the web crawler system 2 and isable to take into account a variety of web crawling concerns (e.g.,adult content, spam, etc).

The computing system 5 comprises a central processing unit (CPU) 7connected to a computer readable memory system 4. The computer readablememory system 4 comprises a web crawler 8, an online analysis tool 17,an offline analysis software application 22, and a website scoredatabase 20. The web crawler 8 performs a search for content (i.e.,information) on the web (i.e., from websites). The web crawler 8comprises a software tool that locates and retrieves content from theweb in an automated and methodical manner. The web crawler 8 performs aweb crawl of the Web. A web crawl of the Web comprises retrieving knownweb pages and extracting hyperlinks (i.e., URLs) to other web pages,thus increasing a data store of known and downloaded/downloadabledocuments. The web crawler 8 replicates content available on the web toa data storage system for indexing and further analysis. The web crawler8 is typically initialized with a seed list of URLs (i.e., links tovarious web pages of user interest) based on a search criteria. As theweb crawler 8 fetches a web page (i.e., an individual page ofinformation that is a part of a website) associated with an URL, itextracts hyperlinks and adds them to the URL database 8 c in FIG. 2. Theweb pages are typically scored (i.e., assigned a web page ranking scoreby the web crawler 8) in order of relevance based on a search criteria.Alternatively, the web pages may already comprise a web page rankingscore. The online analysis software application 17 comprises softwaretools that interact with the web crawler 8 as new content is collectedand analyzed. The web crawler 8 also interacts with online analysissoftware application 17 to retrieve any website scores previouslyassigned to a website in order to prioritize a download of web pages inthe future. A website score comprises a score generated as a function ofa plurality of web page scores. The offline analysis softwareapplication 22 comprises software tools that run in parallel to theonline analysis software application 17 and the web crawler 8. If anywebsites currently lack a website score or have an outdated websitescore (i.e., a specified time period has elapsed since the website scorehas been generated), the offline analysis software application 22collects a sample of web pages from that website (i.e., less than atotal number of web pages in the website), runs resource intensiveanalyses on each sample web page that results in individual web pagescores, and aggregates these scores into a single score for the website.The score (i.e., website score) is then stored in the website scoredatabase 20. The website score database 20 comprises a collection ofwebsites, their website scores, and a last date of ranking (i.e.,creating a website score). The website score database 20 is updated bythe offline analysis software application 22 when a website is scored orrescored. Additionally, the website score database 20 is queried by theonline analysis software application 17 when a website score is requiredfor retrieval prioritization. The computing system 5 performs variousanalyses on a sample of web pages from a website to formulate a websitescore. Future web pages from the website may then be prioritized inrelation to all web pages from other websites via a website score. Byutilizing a website sample based approach to evaluate web pages, thetask of ranking URLs within the frontier comprises a simplified process.

FIG. 2 illustrates a detailed block diagram view of the web crawlersystem 2 of FIG. 1, in accordance with embodiments of the presentinvention. FIG. 2 illustrates the overall web crawler system 2architecture and describes how the various components within the webcrawler system 2 relate to each other. In order to prevent the websitescoring process from slowing down the actual web crawling and fetchingprocess, the architecture in FIG. 2 is divided into two stages: anonline analysis stage (i.e., performed by the online analysis softwareapplication 17) and an offline analysis stage (i.e., performed by theoffline analysis software application 22). The online analysis stage andthe offline analysis stage may be performed simultaneously. The onlineanalysis stage comprises the use of a scheduler tool 8 b (within the webcrawler 8) and the online analysis software application 17. Theaforementioned components run in parallel with a fetching process (i.e.,performed by the fetching tool 8 a within the web crawler 8). Theoffline analysis software application 22 comprises a data miner chain(e.g., data miners 22 a . . . 22 c) which performs more extensivecontent analysis. The data miner chain may alternatively run oncomputing systems that are separate from the computing system 5. Whilethe scheduler tool 8 b and online analysis software application 17 arecoupled in one multi-threaded process, the remaining components in theweb crawler system 2 are distributed using a service orientedarchitecture. For each scored website, the website score database 20stores the website score, as well as a date on which the website wasscored. Website scores comprise integers between −1000 and 1000inclusive. A website score −1000 refers to websites of the poorestquality (e.g., spam, adult content, content of little relevance to thesearch, etc.) with respect to a user. A website score 1000 refers towebsites of the highest quality (e.g., content that is most relevant tothe search) with respect to a user. A website score of 0 refers towebsites which are roughly neutral in quality. Note that the websitescore range (i.e., −1000 to 1000) is arbitrary and that any other rangeof integers, real numbers, etc. may be used. The website score database20 acts as a link between online and offline analysis stages. The onlineanalysis stage queries for website scores and the offline analysis stageupdates and/or generates the website scores. During a content searchprocess, the web crawler 8 perpetually iterates over a list of all URLs(i.e., from a sampling of web pages comprised by a website) that havebeen discovered by a web crawling process. The list is pulled in batchesand each URL (i.e., for a web page) in the batch is given a score. Thebatch is then sorted by the score and then sent to the fetcher tool 8 a.The fetcher tool 8 a is allocated a constrained time period in which asmany of the URLs as possible should be fetched. The scheduler tool 8 bmanages an ordering of the URL database 8 c by assigning scores to theURLs and incorporates the information from the website score database 20in the URL ranking. This is accomplished by extracting the website fromeach URL and querying the website score database for a website score. Ifa website score does not exist, a slightly higher than neutral score isassigned, as unscored websites are favored for their potential forcontaining novel (relevant) content. All newly fetched web pages arerouted to the online analysis software application 17 (as well as beingwritten to a data store for later indexing and analysis). The onlineanalysis software application 17 performs online heuristics on each webpage to determine whether or not a web page should be sent to theoffline analysis software application 22 for additional processing. As afirst example of online heuristics, the online analysis softwareapplication 17 checks a hypertext transfer protocol (HTTP) response codefor the web page to ensure that the request for the web page wassuccessful. The online analysis software application 17 checks for emptyor “soft” error pages. Soft error pages are those on which an error hasoccurred (e.g. HTTP 404 or 302 errors), while mistakenly returning asuccessful HTTP return code (e.g., HTTP 200). If an error is found, theweb page is discarded. As a second example of online heuristics, the webpage undergoes a basic analysis (i.e., by the online analysis softwareapplication 17) to verify that the web page actually contains data worthanalyzing further. For example, a web page may not comprise any content.In this case, the web page is discarded. If the website has passed theaforementioned checks, the website score database 20 is queried. If awebsite score does not exist or if a sufficient period of time T haselapsed since a website score was produced, the web page is sent to theoffline analysis software application 22 for further processing.

The offline analysis software application 22 comprises data miners 22 a. . . 22 c. When a web page is scheduled for offline analysis (i.e., bythe online analysis software application 17), the web page is passedthrough the data miners 22 a . . . 22 c, each of which score the webpage based on various offline heuristics.

Examples of Offline Heuristics are Illustrated as Follows:

1. Does the web page contain expressions (e.g., words or phrases) thatare interesting to a user of the web crawler?

2. Does the web page link to websites that a user of the web crawler maybe interested in?

3. Do the contents of the web page appear to be spam?

4. Do the contents of the web page appear to be adult content?

5. Is the language and top-level domain of the website interesting to auser of the web crawler?

6. Does the web page link to diverse and interesting media, such as PDFfiles?

The multiple web page scores for each of the web pages may be aggregatedinto a weighted average and the final web page score is storedtemporarily in the temporary web page score database 27. Alternatively,multiple web page scores for each of the web pages may be combined inmore complex ways as well. Once a threshold p of web pages for a websitehas been collected, the web page scores may be averaged (note that otheranalysis techniques may be performed) and submitted to the website scoredatabase 20. Threshold p may be variable between different websites. Theweb pages entries in the temporary web page score database 27 areremoved at this point. A separate clean-up thread periodically ensuresthat websites that have not had web pages scored in a specified amountof time, perhaps because they have fewer than p pages, are scored aftersome time period t. This process prevents the web page score database 20from becoming too large.

The data miners 22 a . . . 22 c within the offline analysis softwareapplication 22 may comprise any type of data miners known to a person ofordinary skill in the art. The following description describes variousexamples of data miners that may be used to implement the data miners 22a . . . 22 c of FIG. 2. Data miners are typically divided into twotypes: cross-cutting content analysis data miners and consumer specificcontent analysis data miners. Cross-cutting content analysis data minerscomprise data miners that are generic to any web crawl process that isbiased by content quality. Consumer specific content analysis dataminers comprise data miners that search the web based on the applicationof the content that is crawled, thus biasing the Web crawler 8 to focuson specific content desired by the Web crawler 8 user.

Examples of Cross-Cutting Content Data Miners:

Adult content data miner—An adult content data miner identifies webpages containing adult content by way of a classifier. The web pagescore is then biased negatively for web pages comprising adult content.

Bad URL data miner—If an URL of a web page contains words that areconsidered indicative of poor content or if the hostname has a largenumber of segments, a bad URL data miner ranks the web page with a lowerscore.

Content type data miner—A content type data miner biases toward webpages that refer to content types that consumers (i.e., users) may finduseful, such as, inter alia, .doc files, .PDF files, .ppt files, etc.Web pages that contain such file types are more likely to contain otherHTML-based content which is valuable. Most web pages that contain linksto these file types may be described as hubs of information which couldpotentially be perceived as valuable.

Spam data miner—A spam data miner identifies web pages containing spam.The spam data miner uses content analysis techniques similar to theadult content miner.

Examples of Consumer Specific Content Analysis Data Miners:

Blog data miner—A blog or web log is a website where the author of thewebsite makes note of other interesting locations on the web andsometimes editorializes these locations. The blog data miner biases theweb crawler 8 toward websites that are identified as containing blogcontent. A central web page or website for a topic is not the onlysource of information on that issue, and blogs present opinions andlinks to other websites that provide novel ideas.

Entity data miner—An entity data miner identifies web pages whichcontain predefined entities (persons, places, etc.).

Key outlink data miner. A key outlink data miner biases towards webpages that link to a set of predefined URLs that consumers findinteresting. This reflects the concept of forward link-count webcrawling.

Locale data miner. A locale data miner biases towards web pages whosetop-level domain names originate from a location of interest to theclient or user. This type of data miner also examines a language of theweb page, and scores a page up or down appropriately.

Table 1 illustrates an example typical weights assigned to web pages bythe various data miners described above.

TABLE 1 Data Miner Type Miner Weights Content type 50 Blog 100 Locale200 Entity 325 Key Outlink 325 Bad URL −100 Adult Content −425 Spam −425

Each web page passed through the data miners is scored multiple timesand the multiple scores are aggregated into a final web page score foreach of the web pages. For example, a single web page may receive aweight of 1 for each miner. This weight is multiplied by the minerweights illustrated in table 1. The web page scores may be combinedusing any technique. In this example the combined scores produce a finalweb page score of 50 indicating a slightly higher than neutral final webpage score for one of the sample web pages. This process is repeated forall of the sample web pages to produce a plurality of final web pagescores for the website. Table 2 illustrates final web page scores foreach sample web page from a website to be scored.

TABLE 2 Sample Web Page Final Web Page Score Web Page 1 50 Web Page 2 50Web Page 3 500 Web Page 4 700 Web Page 5 325 Web Page 6 −200 Web Page 7−500 Web Page 8 −200

A single website score is generated from all of the final web pagesscores illustrated in table 2. The final web pages scores may becombined, averaged, etc. For example, final web pages scores may beaveraged to produce a website score of 90.625 indicating a good websitescore for the website. This process is repeated for multiple websites toproduce a plurality of website scores. The website scores are ranked(i.e., by the offline analysis software application) with respect toeach other in order to determine a list of ranked websites for a user.Table 3 illustrates website ranking list.

TABLE 3 Ranked Websites Website Score Website 1 925 Website 2 400Website 3 225 Website 4 100 Website 5 50 Website 6 −100 Website 7 −500Website 8 −600

FIG. 3 is a flowchart describing an algorithm for implementing the webcrawler system 2 of FIGS. 1 and 2, in accordance with embodiments of thepresent invention. In step 42, the web crawler requests a web page(s)from a website on the web. Content for the requested web page(s) isreturned. In step 44, the online analysis software application 17performs online heuristics on the web page(s). In step 50, the onlineanalysis software application extracts hyperlinks from the web page(s)and stores the hyperlinks in the URL database 8 c for subsequent crawls.In step 52, the online analysis software application 17 queries thewebsite score database 20 to determine if there is a current entry(i.e., a website score) for the website that the web page(s) iscomprised by. If in step 52, it is determined that the website that theweb page(s) is comprised by is unknown (i.e., does not comprise awebsite score) or has an outdated website score, then in step 54 the webpage(s) is sent to the offline analysis software application 22 forfurther evaluation and/or scoring. If in step 52, it is determined thatthe website that the web page(s) is comprised by comprises a valid scorethen the process ends in step 53.

FIG. 4 is a flowchart illustrating embedded functions further detailingstep 54 (i.e., offline analysis software application evaluation) of FIG.3, in accordance with embodiments of the present invention. In step 60,the offline analysis software application 22 analyzes the web page(s)with several offline heuristics. In step 62, final scores are generatedfor each web page. In step 64, the offline analysis software application22 combines the scores for each web page into a single score for eachweb page. In step 68, the single web page scores are stored in thetemporary web page score database 27. In step 74, the single web pagescores for each of the web pages are aggregated into a single websitescore for the website. In step 76, the website score is ranked againstother website scores to generate a website ranking list.

FIG. 5 illustrates a computer system 90 (i.e., computing system 5 ofFIGS. 1 and 2) for prioritizing websites during a web crawling process,in accordance with embodiments of the present invention. The computersystem 90 comprises a processor 91, an input device 92 coupled to theprocessor 91, an output device 93 coupled to the processor 91, andmemory devices 94 and 95 each coupled to the processor 91. The inputdevice 92 may be, inter alia, a keyboard, a mouse, etc. The outputdevice 93 may be, inter alia, a printer, a plotter, a computer screen(e.g., monitor 110), a magnetic tape, a removable hard disk, a floppydisk, etc. The memory devices 94 and 95 may be, inter alia, a hard disk,a floppy disk, a magnetic tape, an optical storage such as a compactdisc (CD) or a digital video disc (DVD), a dynamic random access memory(DRAM), a read-only memory (ROM), etc. The memory device 95 includes acomputer code 97. The computer code 97 includes an algorithm used forprioritizing websites during a web crawling process. The processor 91executes the computer code 97. The memory device 94 includes input data96. The input data 96 includes input required by the computer code 97.The output device 93 displays output from the computer code 97. Eitheror both memory devices 94 and 95 (or one or more additional memorydevices not shown in FIG. 5) may comprise the algorithms of FIGS. 3 and4 and may be used as a computer usable medium (or a computer readablemedium or a program storage device) having a computer readable programcode embodied therein and/or having other data stored therein, whereinthe computer readable program code comprises the computer code 97.Generally, a computer program product (or, alternatively, an article ofmanufacture) of the computer system 90 may comprise said computer usablemedium (or said program storage device).

Still yet, any of the components of the present invention could bedeployed, managed, serviced, etc. by a service provider who offers toprioritize websites during a web crawling process. Thus the presentinvention discloses a process for deploying or integrating computinginfrastructure, comprising integrating computer-readable code into thecomputer system 90, wherein the code in combination with the computersystem 90 is capable of performing a method for prioritizing websitesduring a web crawling process. In another embodiment, the inventionprovides a business method that performs the process steps of theinvention on a subscription, advertising, and/or fee basis. That is, aservice provider, such as a Solution Integrator, could offer to generateand rank website scores. In this case, the service provider can create,maintain, support, etc., a computer infrastructure that performs theprocess steps of the invention for one or more customers. In return, theservice provider can receive payment from the customer(s) under asubscription and/or fee agreement and/or the service provider canreceive payment from the sale of advertising content to one or morethird parties.

While FIG. 5 shows the computer system 90 as a particular configurationof hardware and software, any configuration of hardware and software, aswould be known to a person of ordinary skill in the art, may be utilizedfor the purposes stated supra in conjunction with the particularcomputer system 90 of FIG. 5. For example, the memory devices 94 and 95may be portions of a single memory device rather than separate memorydevices.

While embodiments of the present invention have been described hereinfor purposes of illustration, many modifications and changes will becomeapparent to those skilled in the art. Accordingly, the appended claimsare intended to encompass all such modifications and changes as fallwithin the true spirit and scope of this invention.

1. A prioritization method, comprising: extracting, by a web crawler ina computing system, a set of candidate web pages to be crawled, whereinsaid computing system comprises a memory unit, and wherein said memoryunit comprises said web crawler, said set of candidate web pages, anonline analysis software application, an offline analysis softwareapplication, a web page score database, and a website score database;simultaneously executing, by a computer processor of said computingsystem, said online analysis software application and said offlineanalysis software application in order to simultaneously perform anonline analysis and an offline analysis; associating, by said onlineanalysis software application, each web page in said set of candidateweb pages with a website in a computer network; verifying, by saidonline analysis software application, that said set of candidate webpages comprise data for analysis; determining online, by said onlineanalysis software application that a first website score for saidwebsite is not available in said website score database; requesting, bysaid web crawler, a first sample set of web pages from said website,wherein said first sample set of web pages does not include a total setof web pages from said website; first analyzing offline, by said offlineanalysis software application, each sample web page of said first sampleset of web pages with a plurality of offline heuristics; generating, bysaid offline analysis software application, a first group of web pagescores for each said sample web page of said first sample set of webpages based on results of said first analyzing offline; storing, eachsaid first group of web page scores in said web page score database;determining, by said offline analysis software application, that anumber of Web pages in said first sample set of web pages has reached apredetermined threshold; generating, by said offline analysis softwareapplication in response to said determining, that said number of Webpages in said first sample set of web pages has reached saidpredetermined threshold, a first final web page score for each said webpage of said first sample set of web pages, wherein each said firstfinal web page score is generated by combining each web page scorewithin each said first group of web page scores; storing, each saidfirst final web page score in said web page score database; generating,by said offline analysis software application in response to saiddetermining online, a first website score for said website, wherein saidfirst website score is generated by combining said first final web pagescores for said first sample set of web pages; storing, said firstwebsite score in said website score database; associating, by saidonline analysis software application, said first website score for saidwebsite with associated web pages in said set of candidate web pages;prioritizing, said set of candidate web pages with respect to a firstassociated website score for each web page in said candidate set of webpages; retrieving, by said web crawler, first content from said set ofcandidate web pages using said prioritizing; extracting, by said onlineanalysis software application, first hyperlinks from said first content;storing said first hyperlinks in said memory unit.
 2. The method ofclaim 1, wherein said offline analysis software application comprises aplurality of data mining software tools.
 3. The method of claim 1,wherein said analyzing offline comprises performing a search forspecified expressions within said content from each said sample web pageof said first sample set of web pages, wherein each specified expressionfrom said specified expressions is selected from the group consisting ofa phrase and a word, and wherein said specified expressions are dividedinto a first group of expressions that are of positive interest to auser of said web crawler and a second group of expressions that are ofnegative interest to said user.
 4. The method of claim 3, wherein saidanalyzing offline further comprises determining if each said sample webpage of said first sample set of web pages comprises a hyperlink to analternative web page comprising an expression from said first group orsaid second group.
 5. The method of claim 1, wherein said requestingcomprises a dynamic determination of a sample size of said first sampleset of web pages.
 6. The method of claim 1, further comprising:excluding, by said online analysis software application, a group of webpages from said first sample set of web pages based upon a plurality ofheuristics.
 7. A computing system comprising a computer processorcoupled to a computer-readable memory unit, said memory unit comprisinga web crawler, a set of candidate web pages, an online analysis softwareapplication, an offline analysis software application, a website scoredatabase, a web page score database, and instructions that when executedby the computer processor implement a prioritization method, said methodcomprising: extracting, by said web crawler, said set of candidate webpages to be crawled; simultaneously executing, by said computerprocessor of said computing system, said online analysis softwareapplication and said offline analysis software application in order tosimultaneously perform an online analysis and an offline analysis;associating, by said online analysis software application, each web pagein said set of candidate web pages with a website in a computer network;verifying, by said online analysis software application, that said setof candidate web pages comprise data for analysis; determining online,by said online analysis software application that a first website scorefor said website is not available in said website score database;requesting, by said web crawler, a first sample set of web pages fromsaid website, wherein said first sample set of web pages does notinclude a total set of web pages from said website; first analyzingoffline, by said offline analysis software application, each sample webpage of said first sample set of web pages with a plurality of offlineheuristics; generating, by said offline analysis software application, afirst group of web page scores for each said sample web page of saidfirst sample set of web pages based on results of said first analyzingoffline; storing, each said first group of web page scores in said webpage score database; determining, by said offline analysis softwareapplication, that a number of Web pages in said first sample set of webpages has reached a predetermined threshold; generating, by said offlineanalysis software application in response to said determining, that saidnumber of Web pages in said first sample set of web pages has reachedsaid predetermined threshold, a first final web page score for each saidweb page of said first sample set of web pages, wherein each said firstfinal web page score is generated by combining each web page scorewithin each said first group of web page scores; storing, each saidfirst final web page score in said web page score database; generating,by said offline analysis software application in response to saiddetermining online, a first website score for said website, wherein saidfirst website score is generated by combining said first final web pagescores for said first sample set of web pages; storing, said firstwebsite score in said website score database; associating, by saidonline analysis software application, said first website score for saidwebsite with associated web pages in said set of candidate web pages;prioritizing, said set of candidate web pages with respect to a firstassociated website score for each web page in said candidate set of webpages; retrieving, by said web crawler, first content from said set ofcandidate web pages using said prioritizing; extracting, by said onlineanalysis software application, first hyperlinks from said first content;storing said first hyperlinks in said memory unit.
 8. The computingsystem of claim 7, wherein said offline analysis software applicationcomprises a plurality of data mining software tools.
 9. The computingsystem of claim 7, wherein said analyzing offline comprises performing asearch for specified expressions within said content from each saidsample web page of said first sample set of web pages, wherein eachspecified expression from said specified expressions is selected fromthe group consisting of a phrase and a word, and wherein said specifiedexpressions are divided into a first group of expressions that are ofpositive interest to a user of said web crawler and a second group ofexpressions that are of negative interest to said user.
 10. Thecomputing system of claim 9, wherein said analyzing offline furthercomprises determining if each said sample web page of said first sampleset of web pages comprises a hyperlink to an alternative web pagecomprising an expression from said first group or said second group. 11.The computing system of claim 7, wherein said requesting comprises adynamic determination of a sample size of said first sample set of webpages.
 12. The computing system of claim 7, wherein said method furthercomprises: excluding, by said online analysis software application, agroup of web pages from said first sample set of web pages based upon aplurality of heuristics.
 13. A computer program product, comprising acomputer readable storage medium including an online analysis softwareapplication, an offline analysis software application, a website scoredatabase, a web crawler, a set of candidate web pages, a web page scoredatabase, and computer readable program code embodied therein, saidcomputer readable program code comprising an algorithm that whenexecuted by a computer processor of a computing system is adapted toimplement a prioritization method within said computing system, saidmethod comprising: extracting, by said web crawler, said set ofcandidate web pages to be crawled; simultaneously executing, by saidcomputer processor of said computing system, said online analysissoftware application and said offline analysis software application inorder to simultaneously perform an online analysis and an offlineanalysis; associating, by said online analysis software application,each web page in said set of candidate web pages with a website in acomputer network; verifying, by said online analysis softwareapplication, that said set of candidate web pages comprise data foranalysis; determining online, by said online analysis softwareapplication that a first website score for said website is not availablein said website score database; requesting, by said web crawler, a firstsample set of web pages from said website, wherein said first sample setof web pages does not include a total set of web pages from saidwebsite; first analyzing offline, by said offline analysis softwareapplication, each sample web page of said first sample set of web pageswith a plurality of offline heuristics; generating, by said offlineanalysis software application, a first group of web page scores for eachsaid sample web page of said first sample set of web pages based onresults of said first analyzing offline; storing, each said first groupof web page scores in said web page score database; determining, by saidoffline analysis software application, that a number of Web pages insaid first sample set of web pages has reached a predeterminedthreshold; generating, by said offline analysis software application inresponse to said determining, that said number of Web pages in saidfirst sample set of web pages has reached said predetermined threshold,a first final web page score for each said web page of said first sampleset of web pages, wherein each said first final web page score isgenerated by combining each web page score within each said first groupof web page scores; storing, each said first final web page score insaid web page score database; generating, by said offline analysissoftware application in response to said determining online, a firstwebsite score for said website, wherein said first website score isgenerated by combining said first final web page scores for said firstsample set of web pages; storing, said first website score in saidwebsite score database; associating, by said online analysis softwareapplication, said first website score for said website with associatedweb pages in said set of candidate web pages; prioritizing, said set ofcandidate web pages with respect to a first associated website score foreach web page in said candidate set of web pages; retrieving, by saidweb crawler, first content from said set of candidate web pages usingsaid prioritizing; extracting, by said online analysis softwareapplication, first hyperlinks from said first content; storing saidfirst hyperlinks in said memory unit.
 14. The computer program productof claim 13, wherein said offline analysis software applicationcomprises a plurality of data mining software tools.
 15. The computerprogram product of claim 13, wherein said analyzing offline comprisesperforming a search for specified expressions within said content fromeach said sample web page of said first sample set of web pages, whereineach specified expression from said specified expressions is selectedfrom the group consisting of a phrase and a word, and wherein saidspecified expressions are divided into a first group of expressions thatare of positive interest to a user of said web crawler and a secondgroup of expressions that are of negative interest to said user.
 16. Thecomputer program product of claim 13, wherein said requesting comprisesa dynamic determination of a sample size of said first sample set of webpages.
 17. The computer program product of claim 13, wherein said methodfurther comprises: excluding, by said online analysis softwareapplication, a group of web pages from said first sample set of webpages based upon a plurality of heuristics.
 18. The method of claim 1,further comprising: determining by said online analysis softwareapplication that a specified time period has elapsed since saidgenerating said first website score.